Programmeringsgruppe 1
/
Alarmsystem
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Dependencies: mbed
Diff: main.cpp
- Revision:
- 1:6917ec4f5e6d
- Parent:
- 0:33bf28fd1ac6
- Child:
- 2:cef96d07d3cd
--- a/main.cpp Thu Jan 25 08:59:55 2018 +0000
+++ b/main.cpp Thu Jan 25 19:32:00 2018 +0000
@@ -1,29 +1,113 @@
#include "mbed.h"
-#define ON 1
-#define OFF 0
-#define AlarmSone1 1
-#define AlarmSone2 2
-#define AlarmSone3 4
-#define AlarmSone4 8
+#define Feil 0
+#define Tilstand1 (0.9<1.5)
+#define Tilstand2 (2.2<2.8)
+#define Tilstand3 (3<3.3)
+#define Normaldrift (0.01<0.2)
+
+#define _1MIN 600
DigitalOut Driftslys(LED1);
-BusOut Alarm(p21, p22, p23, p24);
+BusOut AlarmUtganger1(p21, p22, p23, p24);
+BusOut AlarmUtganger2(p25, p26, p27, p28);
DigitalIn Servicebryter(p20);
-DigitalIn Sone1(p15);
-DigitalIn Sone2(p16);
-DigitalIn Sone3(p17);
-DigitalIn Sone4(p19);
+DigitalIn _Sone1(p15);
+DigitalIn _Sone2(p16);
+DigitalIn _Sone3(p17);
+DigitalIn _Sone4(p19);
+
+
+Ticker AlarmBlink; //10Hz blinking for alarmfunksjon på lys og telling
+int Tid = 0;
+volatile int sysclock = 0;
-Ticker AlarmBlink;
+volatile int Utganger1 = AlarmUtganger1;
+volatile int Utganger2 = AlarmUtganger2;
+volatile int Bryter = Servicebryter;
+void Alarmf(void); //Funksjon for og pluss sammen bussen til alarmene
+volatile int Door1_1 = 0, Door1_2 = 0, Door2_1 = 0, Door2_2 = 0, Door3_1 = 0, Door3_2 = 0, Door4_1 = 0, Door4_2 = 0;
+volatile float Sone1 = Sone1 * 3.3;
+volatile float Sone2 = Sone2 * 3.3;
+volatile float Sone3 = Sone3 * 3.3;
+volatile float Sone4 = Sone4 * 3.3;
+volatile int ArrSone[4] = {Sone1, Sone2, Sone3, Sone4};
+volatile int DoorOne[4] = { Door1_1, Door2_1, Door3_1, Door4_1 };
+volatile int DoorTwo[4] = { Door1_2, Door2_2, Door3_2, Door4_2 };
+
+enum {_Feil, _Tilstand1, _Tilstand2, _Tilstand3, _NormalDrift} Tilstand; // Tilstand1 = Bryter1 i Sonen valgt, Tilstand2 = Bryter2 i sonen valgt, Tilstand3 = bryter 1 og 2 i sonen valgt, Normaldrift = alt er optimalt.
+int Tilstandssjekk();
+void AlarmBlink_Start(void);
+volatile int Klokke = 0;
+
+int main()
+{
+ AlarmBlink.attach(&AlarmBlink_Start, 0.05);
+
+ while(1) {
+ if(Servicebryter == 1) {
+ Utganger1 = 0;
+ Utganger2 = 0;
+ }
+ Tilstandssjekk();
+ while(sysclock == 1);
+ while(sysclock == 0);
+ Tid++;
-int main() {
- while(1) {
- Driftslys = 1;
-
- wait(0.2);
- myled = 0;
- wait(0.2);
}
}
+
+int Tilstandssjekk()
+{
+ static float Sone1 = Sone1 * 3.3;
+ static float Sone2 = Sone2 * 3.3;
+ static float Sone3 = Sone3 * 3.3;
+ static float Sone4 = Sone4 * 3.3;
+ int i = 0;
+ ArrSone[i];
+ DoorOne[i];
+ DoorTwo[i];
+ static int Utganger1;
+ static int Utganger2;
+
+ for(i = 0; i < 3; i++) {
+ if(ArrSone[i] == Tilstand1) {
+ AlarmBlink_Start();
+ DoorOne[i] = Utganger1;
+ }
+ if(Tilstand2 == ArrSone[i]) {
+ AlarmBlink_Start();
+ DoorTwo[i] = Utganger2;
+ }
+ if(Tilstand3 == ArrSone[i]) {
+ AlarmBlink_Start();
+ DoorOne[i] = Utganger1;
+ DoorTwo[i] = Utganger2;
+ }
+ if(Feil == ArrSone[i]) {
+ AlarmBlink_Start();
+ }
+ if(Normaldrift == ArrSone[i]) {
+ Driftslys = 1;
+ DoorOne[i] = Utganger1 - DoorOne[i];
+ }
+ if(i < 0 ) {
+ DoorOne[i] = Utganger1 + DoorOne[i];
+ DoorTwo[i] = Utganger2 - DoorTwo[i];
+ }
+ if(i < 0 ) {
+ DoorOne[i] = Utganger2 + DoorTwo[i];
+ }
+ }
+ return ArrSone[i], DoorOne[i], DoorTwo[i];
+}
+
+void AlarmBlink_Start(void)
+{
+ sysclock = !sysclock;
+ Driftslys = 1;
+ if(Normaldrift == 1) {
+ sysclock = 1;
+ }
+}
\ No newline at end of file